Abstract
In cache-enabled device-to-device (D2D) -aided cellular networks, the technique of caching contents in the cooperative crossing between base stations (BSs) and devices can significantly reduce core traffic and enhance network capacity. In this paper, we propose a scheme that establishes device availability, which indicates whether a cache-enabled device can handle the transmission of the desired content within the required sending time, called the delay, while achieving optimal probabilistic caching. We also investigate the impact of transmission device availability on the effectiveness of a scenario of cooperative crossing cache placement, where content delivery traffic can be offloaded from the local cache, a D2D transmitter’s cache via a D2D link, or else directly from a BS via a cellular link, in order to maximize the offloading probability. Further, we derive the cooperation content offloading strategy while considering successful content transmission by D2D transmitters or BSs to guarantee the delay, even though reducing the delay is not the focus of this study. Finally, the proposed problem is formulated. Owing to the non-convexity of the optimization problem, it can be rewritten as a minimization of the difference between the convex functions; thus, it can be solved by difference of convex (DC) programming using a low-complexity algorithm. Simulation results show that the proposed cache placement scheme improves the offloading probability by 13.5% and 23% compared to Most Popular Content (MPC) scheme, in which both BSs and devices cache the most popular content and Coop. BS/D2D caching scheme, in which each BS tier and user tier applies cooperative content caching separately.
Highlights
The proliferation of smartphones in the last decade has led to a sharp increase in data traffic, challenging the capacity of network infrastructure and mobile devices
We focus our attention on analyzing the system performance in the cooperative crossing cache placement scheme while guaranteeing the successful content transmission, with considering the impact of transmission device availability, to facilitate maximization of the total offloading probability
We consider a cache-enabled D2D-aided cellular network, in which content delivery traffic can be offloaded via the local cache; if it is not present in the local cache or the user has no cache ability, it is offloaded via a D2D link; otherwise, via a cellular link, in consideration of the impact of transmission device availability on the effectiveness of the cache placement scheme
Summary
The proliferation of smartphones in the last decade has led to a sharp increase in data traffic, challenging the capacity of network infrastructure and mobile devices. We focus our attention on analyzing the system performance in the cooperative crossing cache placement scheme while guaranteeing the successful content transmission, with considering the impact of transmission device availability, to facilitate maximization of the total offloading probability. We consider a cache-enabled D2D-aided cellular network, in which content delivery traffic can be offloaded via the local cache; if it is not present in the local cache or the user has no cache ability, it is offloaded via a D2D link; otherwise, via a cellular link, in consideration of the impact of transmission device availability on the effectiveness of the cache placement scheme.
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.